针对基于近似模型的涡轮叶片设计过程中一次性建模方法未能充分利用样本点信息导致近似建模精度较低的弊端,提出了基于积分均方误差(Integral mean square error,IMSE)减小的序贯建模方法。以随机克里金模型(Stochastic Kriging,SK)作...针对基于近似模型的涡轮叶片设计过程中一次性建模方法未能充分利用样本点信息导致近似建模精度较低的弊端,提出了基于积分均方误差(Integral mean square error,IMSE)减小的序贯建模方法。以随机克里金模型(Stochastic Kriging,SK)作为近似模型考虑响应不确定性的影响,并通过添加使近似模型IMSE期望减小最大的样本点序贯更新近似模型。“克里金信任”(Kriging believer)策略被应用于序贯选取样本点优化问题的求解过程,以减小仿真成本。选用了一个数值算例和涡轮叶片力学性能预报工程算例验证所提出方法的性能,结果表明,所提出的方法与一次性建模方法相比,在相同仿真成本下能构建全局和局部精度更优的近似模型。展开更多
The epidermal growth factor receptor(EGFR)—tyrosine kinase inhibitors(TKIs) monotherapies have limited efficacy in the treatment of EGFR mutation-negative non-small cell lung cancers(NSCLCs). In the present stu...The epidermal growth factor receptor(EGFR)—tyrosine kinase inhibitors(TKIs) monotherapies have limited efficacy in the treatment of EGFR mutation-negative non-small cell lung cancers(NSCLCs). In the present study, we aimed to investigate the combined effect of erlotinib(ER) and cabozantinib(CAB) on NSCLC cell lines harboring wild-type EGFR and to optimize the dosage regimens using pharmacodynamic(PD) modeling and simulation. Therefore, we examined the combined effect of ER and CAB on cell viability, cloning, apoptosis induction, migration and growth dynamics in H1299 and A549 cells. PD modeling and simulation were also performed to quantitatively describe the H1299 cells growth dynamics and to optimize the dosage regimens as well. Our results showed that CAB effectively enhanced the sensitivity of both cell lines to ER. The PD models fitted the data well, and some important parameters were obtained. The exponential(λ_0) and linear(λ_1) growth rates of H1299 cells were 0.0241 h^(–1) and 360 cells?h^(–1), respectively. The Emax of ER and CAB was 0.0091 h^(–1) and 0.0085 h^(–1), and the EC50 was 0.812 μM and 1.16 μM, respectively. The synergistic effect observed in the experiments was further confirmed by the estimated combination index φ(1.37),(95% confidence interval: 1.24–1.50), obtained from PD modeling. Furthermore, the dosage regimens were optimized using simulations. In summary, both the experimental and modeling results demonstrated the synergistic interaction between ER and CAB in NSCLCs without EGFR mutations. Sequential combinations of ER and CAB provided an option for the therapy of the NSCLCs with wild-type EGFR, which would provide some references for preclinical study and translational research as well.展开更多
基金National Natural Science Foundation of China(NSFC,Grant No.81273583)
文摘The epidermal growth factor receptor(EGFR)—tyrosine kinase inhibitors(TKIs) monotherapies have limited efficacy in the treatment of EGFR mutation-negative non-small cell lung cancers(NSCLCs). In the present study, we aimed to investigate the combined effect of erlotinib(ER) and cabozantinib(CAB) on NSCLC cell lines harboring wild-type EGFR and to optimize the dosage regimens using pharmacodynamic(PD) modeling and simulation. Therefore, we examined the combined effect of ER and CAB on cell viability, cloning, apoptosis induction, migration and growth dynamics in H1299 and A549 cells. PD modeling and simulation were also performed to quantitatively describe the H1299 cells growth dynamics and to optimize the dosage regimens as well. Our results showed that CAB effectively enhanced the sensitivity of both cell lines to ER. The PD models fitted the data well, and some important parameters were obtained. The exponential(λ_0) and linear(λ_1) growth rates of H1299 cells were 0.0241 h^(–1) and 360 cells?h^(–1), respectively. The Emax of ER and CAB was 0.0091 h^(–1) and 0.0085 h^(–1), and the EC50 was 0.812 μM and 1.16 μM, respectively. The synergistic effect observed in the experiments was further confirmed by the estimated combination index φ(1.37),(95% confidence interval: 1.24–1.50), obtained from PD modeling. Furthermore, the dosage regimens were optimized using simulations. In summary, both the experimental and modeling results demonstrated the synergistic interaction between ER and CAB in NSCLCs without EGFR mutations. Sequential combinations of ER and CAB provided an option for the therapy of the NSCLCs with wild-type EGFR, which would provide some references for preclinical study and translational research as well.